Synthesis,characterization and biological activity of ring-substituted 6-benzylamino-9-tetrahydropyran-2-yl and 9-tetrahydrofuran-2-ylpurine derivatives

In an attempt to improve specific biological functions of cytokinins routinely used in plant micropropagation, 33 6-benzylamino-9-tetrahydropyran-2-ylpurine (THPP) and 9-tetrahydrofuran-2-ylpurine (THFP) derivatives, with variously positioned hydroxy and methoxy functional groups on the benzyl ring, were prepared. The new derivatives were prepared by condensation of 6-chloropurine with 3,4-dihydro-2H-pyran or 2,3-dihydrofuran and then by the condensation of these intermediates with the corresponding benzylamines. The prepared compounds were characterized by elemental analyses, TLC, HPLC, melting point determinations, CI+ MS and ¹H NMR spectroscopy. The cytokinin activity of all the prepared derivatives was assessed in three classical cytokinin bioassays (tobacco callus, wheat leaf senescence and Amaranthus bioassay). The derivatives 6-(3-hydroxybenzylamino)-9-tetrahydropyran-2-ylpurine (3) and 6-(3-hydroxybenzylamino)-9-tetrahydrofuran-2-ylpurine (23) were selected, because of the high affinity of their parent compound meta-topolin (mT, 6-(3-hydroxybenzylamino)purine) to cytokinin receptors, as model compounds for studying their perception by the receptors CRE1/AHK4 and AHK3 in a bacterial assay. Both receptors perceived these two derivatives less well than they perceived the parent compound. Subsequently, the susceptibility of several new derivatives to enzyme degradation by cytokinin oxidase/dehydrogenase was studied. Substitution of tetrahydropyran-2-yl (THP) at the N⁹ position decreased the turnover rates of all new derivatives to some extent. To provide a practical perspective, the cytotoxicity of the prepared compounds against human diploid fibroblasts (BJ) and the human cancer cell lines K-562 and MCF-7 was also assayed in vitro. The prepared compounds showed none or marginal cytotoxicity compared to the corresponding N⁹-ribosides. Finally, the pH stability of the two model compounds was assessed in acidic and neutral water solutions (pH 3–7) by high-performance liquid chromatography (HPLC).     

11, 15, 19-trihydroxy-9-ketoprost-13-enoic acid and 11, 15, 19-trihydroxy-9-ketoprosta-5, 13-dienoic acid in human seminal fluid.

Two novel prostaglandins (PG) have been found in human seminal fluid which had been frozen immediately after collection. They were characterized by combined gas-liquid chromatography-mass spectrometry of various derivatives as 19-hydroxy prostaglandin E1 (11, 15, 19-trihydroxy-9-ketoprost-13-enoic acid) and 19-hydroxy prostaglandin E2 (11, 15, 19-trihydroxy-9-ketoprosta-5, 13-dienoic acid). They were present in three to five times the quantity of prostaglandins E1 and E2. Incubation of seminal fluid for 3 hr at 25 degrees C reduced levels of 190H-PGEs2.5-fold and PGE22-fold, while increasing levels of PGAs and PGBs 2-fold. No 190H PGA or 190H PGB was detected in extracts of unincubated fluid. The PGAs, PGBs and their 19-hydroxy analogs are probably artifacts arising metabolically or as a result of classical isolation techniques.     

Monohydroxylated fatty acid substrate specificity of human leukocyte 5-lipoxygenase and omega-hydroxylase.

Various monohydroxylated fatty acids were synthesized from eicosapolyenoic acids, namely arachidonic (20:4 omega-6), timnodonic (20:5 omega-3), dihomogammalinolenic (20:3 omega-6) and mead (20:3 omega-9) acids. 12-Hydroxy derivatives, as well as 12-hydroxy-5,8,10-heptadecatrienoic acid (HHT), were produced with platelets as the enzyme source, and 15-hydroxy derivatives were produced by soya bean lipoxygenase treatment. Each monohydroxylated fatty acid was incubated with human leukocytes in the presence or absence of the calcium ionophore A23187, and dihydroxylated products were analysed by h.p.l.c. 12-Hydroxy derivatives of 20:4 omega-6, 20:5 omega-3 and 20:3 omega-9 were similarly oxygenated by both the 5-lipoxygenase and the omega-hydroxylase. As expected, the 12-hydroxy derivative of 20:3 omega-6 was not a substrate for 5-lipoxygenase, but surprisingly, omega-6 oxygenated products, like 15-OH-20:4 or HHT, were not converted by the enzyme, although being potential substrates because of the presence of two double bonds at C-5 and C-8. omega-6 oxygenated derivatives were also poorly converted by leukotriene B4 omega-hydroxylase, a cytochrome P-450-dependent enzyme. It is concluded that both leukocyte 5-lipoxygenase and omega-hydroxylase exhibit a substrate specificity towards monohydroxylated fatty acids with respect to their double bonds and/or the carbon position of the alcohol function.     

Potent antitumor N-mustard derivatives of 9-anilinoacridine, synthesis and antitumor evaluation

A series of 9-anilinoacridine N-mustard derivatives, in which the alkylating N-mustard residue was linked to the C-3' or C-4' position of the anilino ring with an O-ethylene spacer, was synthesized and evaluated for cytotoxicity against human lymphoblastic leukemic cells (CCRF-CEM) in culture. The results showed that all of the new compounds exhibited potent cytotoxicity with IC(50) values ranging from 0.002 to 0.7 microM, which were as potent or significantly more potent than 3-(9-acridinylamino)-5-hydroxymethylaniline (AHMA). Compound 9 did not exhibit cross-resistance against both vinblastine-resistant (CCRF-CEM/VBL) and taxol-resistant (CCRF-CEM/taxol) cells. Additionally, compound 9 demonstrated potent antitumor effect in nude mice bearing human breast carcinoma MX-1 xenografts, resulting in complete tumor remission in two out of three mice at the maximal dose of 1-2mg/kg (Q3Dx7) or 3mg/kg (Q4Dx5) via intravenous injection.     

Synthesis of N6-substituted 9-[3-(phosphonomethoxy)propyl]adenine derivatives as possible antiviral agents

A number of N6-substituted 9-[3-(phosphonomethoxy)propyl]adenine derivatives having hydroxymethyl at C-1' position were prepared from the appropriate 6-chloroadenine derivative. The syntheses of the corresponding prodrugs of these compounds are also reported. These compounds showed poor activity against HCV in replicon assay.     

Synthesis and cytotoxic evaluation of C-9 oxidized podophyllotoxin derivatives

A series of podophyllotoxin and podophyllic aldehyde derivatives, lacking the lactone ring and oxidized at C-9 position, has been prepared. The functionalities considered at C-9 were carboxylic acids and several derivatives such as esters, amides, nitriles or anhydrides. The synthesized compounds were cytotoxic at the micromolar level, though less potent and selective than the parent compounds, revealing the influence of the C-9 electrophilic character on the potency and selectivity of these cyclolignans.     

Fluorescent phosphatidylinositol 4,5-bisphosphate derivatives with modified 6-hydroxy group as novel substrates for phospholipase C

The capacity to monitor spatiotemporal activity of phospholipase C (PLC) isozymes with a PLC-selective sensor would dramatically enhance understanding of the physiological function and disease relevance of these signaling proteins. Previous structural and biochemical studies defined critical roles for several of the functional groups of the endogenous substrate of PLC isozymes, phosphatidylinositol 4,5-bisphosphate (PIP(2)), indicating that these sites cannot be readily modified without compromising interactions with the lipase active site. However, the role of the 6-hydroxy group of PIP(2) for interaction and hydrolysis by PLC has not been explored, possibly due to challenges in synthesizing 6-hydroxy derivatives. Here, we describe an efficient route for the synthesis of novel, fluorescent PIP(2) derivatives modified at the 6-hydroxy group. Two of these derivatives were used in assays of PLC activity in which the fluorescent PIP(2) substrates were separated from their diacylglycerol products and reaction rates quantified by fluorescence. Both PIP(2) analogues effectively function as substrates of PLC-δ1, and the K(M) and V(max) values obtained with one of these are similar to those observed with native PIP(2) substrate. These results indicate that the 6-hydroxy group can be modified to develop functional substrates for PLC isozymes, thereby serving as the foundation for further development of PLC-selective sensors.     

Some biological activities of a series of 9a-homo-9,11-epoxy prostanoic acid analogues

A number of stereochemical variants at C-8, C-12 and C-15 of 9a-homo-9,11-epoxy prostaglandins (PGs) have been examined for in vivo activity on blood pressure, bronchial resistance, tracheal segment pressure, heart rate and on intestinal and uterine contractility in artificially respired anaesthetised guinea-pigs; and on blood pressure and blood platelet aggregation in rats (using the extra-corporeal filter-aorta loop technique). In vitro tests for smooth muscle activity were carried out on the isolated rat fundus strip, the guinea-pig tracheal chain and the rat uterus. The following was found:

1. In the guinea-pig, in vivo, all the homo-epoxy PGs were vasopressor and bronchoconstrictor following bolus injections of 250 μg i.v. The effects on heart rate, and intestinal and uterine contractility were equivocal. The configurations at the chiral centres, C-8, C-12 and C-15 play an important role in determining potency. The 15-(S)-hydroxy derivatives were the most potent in stimulating vascular and respiratory muscle. The 8-iso configuration appeared to enhance potency amongst the 15-(S)-hydroxy compounds. The 15-(R)-hydroxy configuration markedly reduced constrictor potency. The same pattern of activity was seen on rat blood pressure, in vivo. The 15-(S)-hydroxy configuration combined with the 8-iso configuration had the most potent constrictor activity, while the 15-(R)-hydroxy group negated this and even led, in the case of the natural configuration at C-8 and C-12, to vasodepression.

2. In vitro, the activity on the rat fundus and guinea-pig tracheal chain followed the same pattern. The 15-(S)-hydroxy derivatives were very much more potent than the 15-(R)-hydroxy derivatives at contracting the smooth muscle preparations. Uterine muscle appeared to be relaxed by the PGs with the natural configuration at C-8 and C-12, with the 15-(R)-hydroxy compound exhibiting greater activity.

3. Inhibition of ADP-induced rat blood platelet aggregation after “intra-arterial” administration was shown only by the derivatives with a single change in the natural configuration either at C-8 or at C-15. Additional changes either resulted in inactivity or, in the case of the 8,12-di-iso-15-(S)-hydroxy compound, even reversed the effect to aggregation.

The inhibition of aggregation was long lasting with both the 8-iso-15-(S)-hydroxy derivative and the 8,12-nat-15-(R)-hydroxy derivative. In the case of the latter compound, GBR-30731, activity increased during the 30 min after administration. GBR-30731 deserves further investigation as a platelet aggregation inhibitor because of its relatively low smooth muscle stimulant (sometimes even relaxant effects) and its long lasting platelet aggregation inhibiting activity./lt     

Some biological activities of a series of 9a-homo-9,11-epoxy prostanoic acid analogues

A number of stereochemical variants at C-8, C-12 and C-15 of 9a-homo-9,11-epoxy prostaglandins (PGs) have been examined for in vivo activity on blood pressure, bronchial resistance, tracheal segment pressure, heart rate and on intestinal and uterine contractility in artificially respired anaesthetised guinea-pigs; and on blood pressure and blood platelet aggregation in rats (using the extra-corporeal filter-aorta loop technique). In vitro tests for smooth muscle activity were carried out on the isolated rat fundus strip, the guinea-pig tracheal chain and the rat uterus. The following was found: 1. In the guinea-pig, in vivo, all the homo-epoxy PGs were vasopressor and bronchoconstrictor following bolus injections of 250 micrograms i.v. The effects on heart rate, and intestinal and uterine contractility were equivocal. The configurations at the chiral centres, C-8, C-12 and C-15 play an important role in determining potency. The 15-(S)-hydroxy derivatives were the most potent in stimulating vascular and respiratory muscle. The 8-iso configuration appeared to enhance potency amongst the 15-(S)-hydroxy compounds. The 15-(R)-hydroxy configuration markedly reduced constrictor potency. The same pattern of activity was seen on rat blood pressure, in vivo. The 15-(S)-hydroxy configuration combined with the 8-iso configuration had the most potent constrictor activity, while the 15-(R)-hydroxy group negated this and even led, in the case of the natural configuration at C-8 and C-12, to vasodepression. 2. In vitro, the activity on the rat fundus and guinea-pig tracheal chain followed the same pattern. The 15-(S)-hydroxy derivatives were very much more potent than the 15-(R)-hydroxy derivatives at contracting the smooth muscle preparations. Uterine muscle appeared to be relaxed by the PGs with the natural configuration at C-8 and C-12, with the 15-(R)-hydroxy compound exhibiting greater activity. 3. Inhibition of ADP-induced rat blood platelet aggregation after "intra-arterial" administration was shown only by the derivatives with a single change in the natural configuration either at C-8 or at C-15. Additional changes either resulted in inactivity or, in the case of the 8,12-di-iso-15-(S)-hydroxy compound, even reversed the effect to aggregation. The inhibition of aggregation was long lasting with both the 8-iso-15-(S)-hydroxy derivative and the 8,12-nat-15-(R)-hydroxy derivative. In the case of the latter compound, GBR-30731, activity increased during the 30 min after administration. GBR-30731 deserves further investigation as a platelet aggregation inhibitor because of its relatively low smooth muscle stimulant (sometimes even relaxant effects) and its long lasting platelet aggregation inhibiting activity.     

Synthesis and biological evaluation of antitumour-active betulin derivatives

The reaction of betulinic aldehydes with various carbon nucleophiles gave a series of new betulin derivatives, among them epoxides, glycidic derivatives and β-hydroxy carbonyl compounds. Subsequent transformations of the β-hydroxy carbonyls lead to 1,3-diketo- and α,β-unsaturated betulin derivatives. These compounds were assayed for cytotoxicity using 15 human cancer cell lines and a colorimetric SRB-assay. Several compounds revealed significant antitumour activity.     

Synthesis and structure elucidation of potential 6-oxygenated metabolites of (22R)-6alpha,9alpha-difluoro-11beta,21-dihydroxy-1 6alpha,17alpha-propyl methylenedioxypregn-4-ene-3,20-dione, and related glucocorticosteroids

(22R)-6alpha,9alpha-Difluoro-11beta,21-dihydroxy-16 alpha,17alpha-propylmethylenedioxypregn-4-ene-3,20-dione (rofleponide) is a synthetic glucocorticosteroid with high affinity for the rat thymus glucocorticoid receptor and a very high biotransformation rate demonstrated through incubation with a human liver S9 subcellular fraction. Because oxidation in the 6-position is an important metabolic pathway of glucocorticosteroids, the potential 6beta-hydroxy and 6-oxo metabolites of rofleponide were synthesized to be used as reference compounds. Three alternative routes were used to reach the 6-hydroxy compound: (a) a one-step procedure involving allylic oxidation of rofleponide by selenium dioxide, (b) selenium dioxide oxidation of the corresponding 1,4-diene followed by selective 1,2-hydrogenation using Wilkinson's catalyst, and (c) autoxidation of a 3-methoxypregna-3,5-diene derivative. All three routes proceeded stereospecifically. Routes (a) and (c) gave approximately the same overall yield of the 6beta-hydroxy epimer, whereas the overall yield from route (b) was much lower, primarily because of incomplete 1,2-hydrogenation. The 6-oxo compound was prepared through Pfitzner/Moffat oxidation of the 6-hydroxy compound. The stereochemistry of the 6-hydroxy substituent is discussed on the basis of 1H-NMR spectroscopy and supplementary 2D NOESY experiments.     

Synthesis of the minor acrolein adducts of 2(')-deoxyguanosine and their generation in oligomeric DNA

Acrolein, a known mutagen, undergoes reaction in vitro under physiological conditions with both 2(')-deoxyguanosine and native DNA to give rise to exocyclic adducts of the 5,6,7,8-tetrahydropyrimido[1,2-a]purine-10(3H)-one class having an hydroxy group at either the 6 or the 8 position. Previously we have shown that the 8-hydroxy derivative in a bacterial system has very low mutagenicity probably because in double-stranded DNA this residue exists in the open-chain aldehydic form [N(2)-(3-oxopropyl)-2(')-deoxyguanosine] (3). To continue our investigation in this area, we needed ample supplies of the 6-hydroxy isomers. This current paper describes high-yield simple methods for the synthesis in bulk of the 6-hydroxy adduct 1 and its incorporation into DNA oligomers. The basic methods for the synthesis of the adduct 1, involve 1-substitution of dG derivatives with a 3-butenyl group, dihydroxylation of the olefin with osmium tetroxide and N-methylmorpholine N-oxide, then diol cleavage with periodate ion after incorporation of the 1-(3,4-diacetoxybutyl)-2(')-deoxyguanosine into oligomeric DNA.     

Inhibitors designed for the active site of dihydroorotase

Four new compounds have been synthesized as potential inhibitors of dihydroorotase from Escherichia coli. NMR spectroscopy was used to show that 4,6-dioxo-piperidine-2(S)-carboxylic acid (3), exists in solution as a mixture of the hydrate (7), enol (8), and enolate (9) tautomeric forms. This compound was found to be a competitive inhibitor versus dihydroorotate and thio-dihydroorotate at pH values of 7-9. The K(i) of 76 microM was lowest at pH7.0 where the ketone and hydrate forms of the inhibitor 3 predominate in solution. Compound 3 was reduced to the two diastereomeric 4-hydroxy derivatives (4 and 5) and then dehydrated to yield the alkene derivative, 1,2,3,6-tetrahydro-6-oxopyridine-2(S)-carboxylic acid (6). Compounds 4-6 were competitive inhibitors versus thio-dihydroorotate at pH 8.0 with K(i) values of 3.0, 1.6, and 2.3 mM. Dihydroorotase was unable to dehydrate the 4-hydroxy derivative 4 or 5 to the alkene 6 or catalyze the reverse reaction.     

9-Oxime-3-ketolides: modification at the C-11,12-diol moiety and antibacterial activities against key respiratory pathogens

In the search for new types of ketolide antibiotics active against key respiratory pathogens including erythromycin-resistant strains, we conducted an extensive study on the modification at the C-11,12-diol moiety of 9-oxime-3-ketolide derivatives. Among the derivatives prepared, compound 6 with carbonate at the C-11,12 position was found to have potent antibacterial activities against erythromycin-resistant Staphylococcus aureus as well as other erythromycin-susceptible strains.     

Synthesis and antiviral activity of N9-[3-fluoro-2-(phosphonomethoxy)propyl] analogues derived from N6-substituted adenines and 2,6-diaminopurines

An efficient method for the synthesis of N(9)-[3-fluoro-2-(phosphonomethoxy)propyl] (FPMP) derivatives of purine bases has been developed. Both (R)- and (S)-enantiomers of the N(6)-substituted FPMP derivatives of adenine and 2,6-diaminopurine were prepared and their anti-human immunodeficiency virus (HIV) and anti-Moloney murine sarcoma virus (MSV) activity was evaluated. Whereas none of the 6-substituted FPMPA derivatives showed any antiviral activity, several FPMPDAP derivatives had a moderate antiretroviral activity. Moreover, the data obtained from the study of the substrate activity of the active derivatives towards N(6)-methyl-AMP aminohydrolase support the notion that the studied N(6)-substituted FPMPDAP derivatives act as prodrugs of the antiretroviral FPMPG analogues.     

Studies on platelet lipoxygenase specificity towards icosapolyenoic and docosapolyenoic acids

Two docosapolyenoic acids (22:5(n-3) and 22:5(n-6)) were isolated from the liver of normal and 18:3(n-3)-deficient trout, respectively. They were prepared by combined thin-layer chromatography (TLC) and reversed-phase high performance liquid chromatography (HPLC). Their purity, checked by capillary gas liquid chromatography, was greater than 95%. Each fatty acid was oxygenated into monohydroxy derivatives by human platelets. The hydroxy compounds were purified by TLC and HPLC and then derivatized for gas chromatography-mass spectrometry analysis. Whereas 22:5(n-6) was only converted into 14-OH-22:5, three hydroxy derivatives (11, 13 and 14) were obtained from 22:5(n-3). However, 13-hydroxy was not formed in the presence of aspirin, indicating that platelet lipoxygenase catalyses the formation of both 11- and 14-hydroxy derivatives from 22:5(n-3), as described previously, from 22:6(n-3). Further studies showed that 22:4(n-6) and 20:5(n-3) were only converted into 14- and 12-hydroxy derivatives. We conclude then that, besides the well-known n-9 oxygenation, lipoxygenase of human platelets is able to catalyse an n-12 oxygenation on docosapolyenoic acids of the n-3 family.     

Structure-Activity Relationships of Benzbromarone Metabolites and Derivatives as EYA Inhibitory Anti-Angiogenic Agents

The tyrosine phosphatase activity of the phosphatase-transactivator protein Eyes Absent (EYA) is angiogenic through its roles in endothelial cell migration and tube formation. Benzbromarone, a known anti-gout agent, was previously identified as an inhibitor of EYA with anti-angiogenic properties. Here we show that the major metabolite of BBR, 6-hydroxy benzbromarone, is a significantly more potent inhibitor of cell migration, tubulogenesis and angiogenic sprouting. In contrast, other postulated metabolites of BBR such as 5-hydroxy benzbromaorne and 1’-hydroxy benzbromarone are less potent inhibitors of EYA tyrosine phosphatase activity as well as being less effective in cellular assays for endothelial cell migration and angiogenesis. Longer substituents at the 2 position of the benzofuran ring promoted EYA3 binding and inhibition, but were less effective in cellular assays, likely reflecting non-specific protein binding and a resulting reduction in free, bio-available inhibitor. The observed potency of 6-hydroxy benzbromarone is relevant in the context of the potential re-purposing of benzbromarone and its derivatives as anti-angiogenic agents. 6-hydroxy benzbromarone represents a metabolite with a longer half-life and greater pharmacological potency than the parent compound, suggesting that biotransformation of benzbromarone could contribute to its therapeutic activity.     

Identification and properties of 8-hydroxyflavin--adenine dinucleotide in electron-transferring flavoprotein from Peptostreptococcus elsdenii.

1. A new flavin prosthetic group has been isolated in pure form from the electron-transferring flavoprotein of Peptostreptococcus elsdenni. Its structure has been established as the FAD derivative of 7-methyl-8-hydroxyisoalloxazine: (see article). Proof of this structure has been obtained by chemical syntehsis of 7-methyl-8-hydroxyisoalloxazine models, and by stepwise degradation of the native compound to 7-methy-8-hydroxyalloxazine. The orange chromophore is characterized by a strong absorption band with a maximum at 472 nm (xi = 41 000 M-1 CM-1) and a pK at 4.8 due to the ionisation of the C(8)-OH group. 2. The properties of a series of functionally substituted derivatives of 8-hydroxy flavins and lumichromes have been investigated to provide a basis for interpreting the effects of pH on the spectroscopic properties of the 8-hydroxy derivatives of FAD and FMN. 3. The 8-hydroxy derivative of FAD is bound by apo-D-amino acid oxidase; the complex shows no catalytic activity. The 8-hydroxy derivative of FMN is bound by apoflavodoxin to give a complex which has catalytic activity similar to that of native flavodoxin. The complex is reversibly reduced by dithionite, first to a relatively stable semiquinone and further to the dihydroflavin form.     

Synthesis of 6-substituted 9-methoxy-11H-indeno[1,2-c]quinoline-11-one derivatives as potential anticancer agents

We have synthesized certain 6-substituted 9-methoxy-11H-indeno[1,2-c]quinolin-11-ones for antiproliferative evaluation. Results indicated that 6-alkylamine derivatives, 6-[2-(dimethylamino)ethylamino]-9-methoxy-11H-indeno[1,2-c]quinolin-11-one (5a) and its 6-[3-(dimethylamino)propylamino] derivative, 5b, were able to inhibit cells growth completely at a concentration of 100 μM while most of the 6-arylamine derivatives 6b-6h were inactive at the same concentration. Comparable mean GI(50) (drug molar concentration causing 50% cell growth inhibition) values for 5a (3.47 μM) and 5b (3.39 μM) indicated the cytotoxicity may not be affected by the length of alkyl substituents at C-6 position. Compound 5b, with a mean GI(50) value of 3.39 μM, was the most active and therefore was selected for further evaluation on its effects of H460 lung cancer cell cycle distribution. Results indicated that 5b induced cell cycle arrest in G2/M phase after 24h treatment, while the hypodiploid (sub-G0/G1 phase) cells increased. We found that H460 cell became shrinked after the treatment of 5b, indicating that apoptosis may be a mechanism by which 5b kills the cancer cells. DNA unwinding assay indicated that 5b may bind to DNA through intercalation. Our results have also demonstrated that PARP was cleaved while caspase-3 and caspase-8 activities were induced after the treatment of 5b at 10 μM for 24h. Thus, compound 5b intercalates DNA, induces cell cycle arrest at G2/M phase via cleavage of PARP, induces caspase-3 and caspase-8 activities, and consequently causes the cell death.     

Chromosome aberrations induced by 9-aminoacridine derivatives

The induction of chromosomal aberrations by 5 derivatives of nitro-9-aminoacridine in V79 Chinese hamster cells was observed. The clastogenic activity of the compounds tested depended on the position of the NO2 group in the acridine ring. The strongest clastogens were derivatives with NO2 in position 1. The remaining derivatives placed in decreasing order of clastogenic activity were: 3-nitro, 4-nitro and 2-nitro. In addition, 2-nitro and 3-nitro derivatives produced hyperdiploid/polyploid metaphases.